Handbook of Loss Prevention Engineering (eBook, ePUB)
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Handbook of Loss Prevention Engineering (eBook, ePUB)
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Loss prevention engineering describes the engineering activities intended to help organizations in any industry to prevent loss, whether it be through injury, fire, explosion, toxic release, natural disaster, terrorism or other security threats. Compared to engineering for process safety, which only focusses on preventing loss in the process industry, this is a much broader field. Here is the only one-stop source for loss prevention principles, policies, practices, programs and methodology presented from an engineering vantage point. As such, this two-volume handbook discusses the engineering…mehr
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Loss prevention engineering describes the engineering activities intended to help organizations in any industry to prevent loss, whether it be through injury, fire, explosion, toxic release, natural disaster, terrorism or other security threats. Compared to engineering for process safety, which only focusses on preventing loss in the process industry, this is a much broader field. Here is the only one-stop source for loss prevention principles, policies, practices, programs and methodology presented from an engineering vantage point. As such, this two-volume handbook discusses the engineering needs for manufacturing, construction, process industries, defense, health care, transportation and communications, covering the topics to a depth that allows for their functional use while providing additional references should more information be required. The reference nature of the book allows any engineers or other professionals in charge of loss prevention and safety concerns to find the information needed to complete their analysis, project, process, or design.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Seitenzahl: 1154
- Erscheinungstermin: 19. März 2013
- Englisch
- ISBN-13: 9783527650668
- Artikelnr.: 37760349
- Verlag: Wiley-VCH
- Seitenzahl: 1154
- Erscheinungstermin: 19. März 2013
- Englisch
- ISBN-13: 9783527650668
- Artikelnr.: 37760349
Joel M. Haight, PhD, P.E., is the Branch Chief of the Human Factors Branch at the Centers for Disease Control and Prevention (CDC)-National Institute of Occupational Safety and Health (NIOSH) at their Pittsburgh Offi ce of Mine Safety and Health Research. For the nearly 10 years prior to this appointment, Dr. Haight served as an Associate Professor of Energy and Mineral Engineering at the Pennsylvania State University. He has a PhD and Master's degree in Industrial and Systems Engineering both from Auburn University. Dr. Haight worked as a manager and an environmental and safety engineer for the Chevron Corporation for 18 years, prior to joining the faculty at Penn State. He has nearly 40 peer-reviewed publications and is the editor-in-chief of the American Society of Safety Engineer's - The Safety Professionals Handbook. He is a professional member of American Society of Safety Engineers, American Industrial Hygiene Association and the Human Factors and Ergonomics Society.
Contents to Volume 1 PREFACE PART I: Engineering Management for Loss Prevention Engineering MANAGEMENT SYSTEMS - LOSS PREVENTION ENGINEERING PROGRAMS ANDPOLICY Introduction - Understanding the Need for Management Systems Management Systems - Definitions Loss Prevention Engineering - Considerations Management Systems - Loss Prevention Engineering RESOURCE ALLOCATION AND EFFECTIVENESS MEASURES FOR LOSS PREVENTION Introduction What Is Loss Prevention/Safety and Health Intervention? Historical Perspective of Resource Allocation for Loss Prevention Loss Prevention/Safety and Health Intervention Effectiveness Evaluation Importance of Multiple Factors in Loss Prevention Research Methodology in Resource Allocation for Loss Prevention Experimental Method Analysis and Results Conclusion ENGINEERING SYSTEMS AND ENGINEERING ECONOMICS OF LOSS PREVENTION Introduction Cost of Injuries Return on Investment Versus Cost Savings Versus Productivity Savings Engineering Economics Engineering Economic Decision-Making Net Present Value Comparison (Equipment Replacement) Payback Period Comparison Financial Considerations of a Loss Prevention Engineering Project Conclusion SAFETY MANAGEMENT AND CULTURE What Is Organizational Culture? How Does Culture Form? Why Is It Good Business to Improve Your Company's Culture? Measuring Culture How to Bring About Changes in Culture LEADERSHIP AND LOSS PREVENTION ENGINEERING: CREATING CONDITIONS TO GET BEYOND COMPLIANCE TO HIGH PERFORMANCE Introduction Management Theories Moving Beyond Mechanistic Management Humanistic Organizations Case Studies of Humanistic Management PART II: Design and Analysis of Protective Systems - General Loss Prevention Engineering GENERAL LOSS PREVENTION ENGINEERING PROGRAMS - INCLUDING FIRE LOSS CONTROL Background Introduction Elements of a Fire Loss Control Program Fire Prevention Controls PERMIT-TO-WORK SYSTEMS Introduction The Permit-to-Work Process Regulations and Standards Hot Work Confined Space Live Line Electrical Work EXCAVATION AND TRENCHING Introduction Hazard Identification and Federal OSHA Regulation Soil Types Basic Soil Mechanics Theory Testing and Soil Classification Systems Protective Systems MACHINE SAFEGUARDING Introduction Regulations and Standards Machine Motion Hazards Human Factor Aspects of Machine Guarding Machine Safeguarding Methodology Basic Machine Guarding Principles Types of Machine Safeguarding Machine Controls Responsibilities of the Machine Builder Mechanical Power Presses Power Press Brakes Conveyors Roll-Forming and Roll-Bending Machines Shearing Machines Laser Machining Robots Conclusion BOILERS AND PRESSURE VESSELS: A BRIEF LOOK AT GENERAL SAFEGUARDS Water Safeguards Codes, Regulations, and Training Types of Boilers Operating Considerations Boiler Feed Water Chemical Handling Steam Special Considerations for Pressure Vessels Fire Detection and Control Incident Investigation Closing Thoughts WELDING AND CUTTING Introduction Basic Equipment for Welding Comfortably and Safely The Welding Process Cutting Conclusion POWER TOOLS Introduction Guards Safety Switches Electric Tools Powered Abrasive Wheel Tools Liquid Fuel Tools Pneumatic Tools Hydraulic Power Tools Conclusion PERSONAL PROTECTIVE EQUIPMENT Introduction General Selection Types Conclusion POWERED INDUSTRIAL TRUCKS Introduction Lift Truck Accident Prevention: An Integrated Approach Fork Truck Safety Observations Making Safety Observations Loading Dock Safety Whole Body Vibration Administrative Controls for Lift Truck Operator Strains and Sprain Prevention Rack and Overhead Storage and Industrial Lift Truck Operations Carbon Monoxide and Dilution Ventilation MVR Program and Physical Requirements Case Studies Using Acceptable Safety Tolerances in Defining Preventive Maintenance Industrial Lift Truck Accident Costs Conclusions and Establishing Safe Behavior Observation Management Programs PART III: Ergonomics and Human Factors Engineering BIOMECHANICS AND PHYSICAL E
Contents to Volume 1 PREFACE PART I: Engineering Management for Loss Prevention Engineering MANAGEMENT SYSTEMS - LOSS PREVENTION ENGINEERING PROGRAMS ANDPOLICY Introduction - Understanding the Need for Management Systems Management Systems - Definitions Loss Prevention Engineering - Considerations Management Systems - Loss Prevention Engineering RESOURCE ALLOCATION AND EFFECTIVENESS MEASURES FOR LOSS PREVENTION Introduction What Is Loss Prevention/Safety and Health Intervention? Historical Perspective of Resource Allocation for Loss Prevention Loss Prevention/Safety and Health Intervention Effectiveness Evaluation Importance of Multiple Factors in Loss Prevention Research Methodology in Resource Allocation for Loss Prevention Experimental Method Analysis and Results Conclusion ENGINEERING SYSTEMS AND ENGINEERING ECONOMICS OF LOSS PREVENTION Introduction Cost of Injuries Return on Investment Versus Cost Savings Versus Productivity Savings Engineering Economics Engineering Economic Decision-Making Net Present Value Comparison (Equipment Replacement) Payback Period Comparison Financial Considerations of a Loss Prevention Engineering Project Conclusion SAFETY MANAGEMENT AND CULTURE What Is Organizational Culture? How Does Culture Form? Why Is It Good Business to Improve Your Company's Culture? Measuring Culture How to Bring About Changes in Culture LEADERSHIP AND LOSS PREVENTION ENGINEERING: CREATING CONDITIONS TO GET BEYOND COMPLIANCE TO HIGH PERFORMANCE Introduction Management Theories Moving Beyond Mechanistic Management Humanistic Organizations Case Studies of Humanistic Management PART II: Design and Analysis of Protective Systems - General Loss Prevention Engineering GENERAL LOSS PREVENTION ENGINEERING PROGRAMS - INCLUDING FIRE LOSS CONTROL Background Introduction Elements of a Fire Loss Control Program Fire Prevention Controls PERMIT-TO-WORK SYSTEMS Introduction The Permit-to-Work Process Regulations and Standards Hot Work Confined Space Live Line Electrical Work EXCAVATION AND TRENCHING Introduction Hazard Identification and Federal OSHA Regulation Soil Types Basic Soil Mechanics Theory Testing and Soil Classification Systems Protective Systems MACHINE SAFEGUARDING Introduction Regulations and Standards Machine Motion Hazards Human Factor Aspects of Machine Guarding Machine Safeguarding Methodology Basic Machine Guarding Principles Types of Machine Safeguarding Machine Controls Responsibilities of the Machine Builder Mechanical Power Presses Power Press Brakes Conveyors Roll-Forming and Roll-Bending Machines Shearing Machines Laser Machining Robots Conclusion BOILERS AND PRESSURE VESSELS: A BRIEF LOOK AT GENERAL SAFEGUARDS Water Safeguards Codes, Regulations, and Training Types of Boilers Operating Considerations Boiler Feed Water Chemical Handling Steam Special Considerations for Pressure Vessels Fire Detection and Control Incident Investigation Closing Thoughts WELDING AND CUTTING Introduction Basic Equipment for Welding Comfortably and Safely The Welding Process Cutting Conclusion POWER TOOLS Introduction Guards Safety Switches Electric Tools Powered Abrasive Wheel Tools Liquid Fuel Tools Pneumatic Tools Hydraulic Power Tools Conclusion PERSONAL PROTECTIVE EQUIPMENT Introduction General Selection Types Conclusion POWERED INDUSTRIAL TRUCKS Introduction Lift Truck Accident Prevention: An Integrated Approach Fork Truck Safety Observations Making Safety Observations Loading Dock Safety Whole Body Vibration Administrative Controls for Lift Truck Operator Strains and Sprain Prevention Rack and Overhead Storage and Industrial Lift Truck Operations Carbon Monoxide and Dilution Ventilation MVR Program and Physical Requirements Case Studies Using Acceptable Safety Tolerances in Defining Preventive Maintenance Industrial Lift Truck Accident Costs Conclusions and Establishing Safe Behavior Observation Management Programs PART III: Ergonomics and Human Factors Engineering BIOMECHANICS AND PHYSICAL E